Container for dispensing a constant amount of liquid content

ABSTRACT

The present invention relates to a pencil-type case enabling a user to discharge liquid contents to a content brush by pressing a press button. More specifically, the present invention relates to a standard capacity discharge case of liquid contents capable of discharging contents contained in a case body to a content brush through a pressing down operation of a press button, including case body  10  having outer body  11  provided with back-end assembly  12  and content case  13  positioned on the inner side of outer body  11  and installed inside piston 13   a  capable of pushing the contents; pump member  20  having collapsible link  25  operable by press button  40  installed in button-mounted groove  11   b  of outer body  11  and piston  23  capable of discharging the contents contained in cylinder tube  21  in content brush  31  of content brush body  30  through a pumping operation by collapsible link  25 ; and content brush body  30  having check valve  60  capable of opening and closing selectively content-inputting tube  32  in response to the operation of pump member  20  and content brush  31  for discharging the contents.

FIELD OF THE INVENTION

The present invention relates to a pencil-type case enabling a user to discharge liquid contents to a content brush by pressing a press button. More specifically, the present invention relates to a standard capacity discharge case of liquid contents having an improved structure of a pump member capable of discharging contents through a pumping operation, thereby discharging stably the contents through the stable operation of the pump member regardless of time and place, and enhancing product reliability.

BACKGROUND OF THE INVENTION

Volatile and liquid contents (hereinafter, it is referred to as ‘interior-contained products’) that are contained and stored in a container lost their original functions if moisture or volatile solvents are volatilized into air.

Examples of such interior-contained products containing moisture or volatile substances include eyeliner, lip-gloss, lip-color, eye serum, anti wrinkle cream, contents and so on.

These interior-contained products are preferably stored in a container which can minimize their contact with air. There have been devised a variety of containers that can minimize the contact of such interior-contained products with air.

For example, there is a container dispensing a fixed quantity of contents through the operation of a press button, having been designed by the same applicant in previously registered Korean Utility Model Registration Nos. 0230104, 0396301 and 0396313.

According to the previously registered inventions, when a user presses down a press button provided to a body, a screw bar rotates by the pressing down operation of the press button, and a piston screw-connected to the screw bar transfers the contents toward a content brush to discharge the contents to the content brush and use the contents.

Even though such a container had benefits in that it is capable of dispensing a fixed quality of the contents and preventing the volatilization of the contents, the content dispensing mechanism is so complicated that it is difficult to reduce production cost involved in manufacturing process. Further, the input of more manpower and the increase in assembling time due to such a complicated manufacturing process make productivity improvement difficult.

Korean Utility Model Registration Nos. 0408260 and 0439672 had disclosed containers solving drawbacks which are found in the prior inventions.

In detail, these previously registered inventions relate to a container capable of dispensing contents by discharging and inputting repeatedly contents wherein a pump tube is compressed by pressing a press button installed in a case body to discharge contents contained in the pump tube to a content brush, and the pump tube is returned to its original form and simultaneously a content-discharging path is closed and a check valve is opened by removing external force applied to the press button to input contents stored in the case body into the pump tube, which improve the containers disclosed in previously registered Korean Utility Model Registration Nos. 0230104, 0396301 and 0396313.

In cases of the aforementioned Korean Utility Model Registration Nos. 0408260 and 0439672, the structure of container is not only simplified but also a means for discharging contents needs not to be subjected to a ultra precise processing. Therefore, the difficulty in manufacturing process is overcome and production cost is reduced, as well as the simplicity of assembling process leads to the reduction of manpower and the improvement of productivity, thereby enabling mass production.

Further, the afore-mentioned inventions have benefits in that the loss of reliability due to the failure of the means for discharging contents can be prevented.

However, the aforementioned inventions also have the limitation that since contents are discharged only by the compression and restitution of pump tube, the resilience of the pump tube should be consistently maintained. Therefore, when the resilience of the pump tube varies depending on surrounding conditions (for example, a variation in temperature), contents may not be stably discharged due to such a variation in the resilience of the pump tube.

That is, the resilience of the pump tube varies in each of low and high temperature condition, and the operation of the pump tube become unstable, resulting in making the stable discharge of contents and the sustenance of reliability difficult.

SUMMARY OF THE INVENTION

The present invention has been invented to solve drawbacks of containers disclosed in the previously registered Korean Utility Model Registration Nos. 0408260 and 0439672.

It is an object of the present invention to provide a standard capacity discharge case of liquid contents having an improved structure of a pump member capable of dispensing contents by discharging and inputting repeatedly contents, wherein the discharge is effected by a series of operations that a press button is pressed down, a folded collapsible link is deployed, a piston connected to one end of the collapsible link is retracted to compress a cylinder tube, and contents contained in the tube is discharged to a content brush, and the input is effected by a series of operations that external force applied to the press button is removed, the piston is advanced by the elasticity of a spring to close a content-delivering path and open a check valve, and contents stored in a content case is inputted into the cylinder tube, thereby discharging a fixed quantity of contents through the stable operation of the pump member regardless of surrounding conditions and enhancing product reliability to ensure competitivity.

To achieve this object, according to an aspect of the present invention, provided is a standard capacity discharge case of liquid contents, which is capable of discharging contents stored in a case body to a content brush by a pressing down operation of a press button,

including case body 10 having outer body 11 where assembly 12 is installed at its back-end and contents is stored therein and content case 13 where piston 13 a is installed, wherein the piston 13 a is moved as the contents are reduced; pump member 20 having collapsible link 25 operable by press button 40 installed in button-mounted groove 11 b of outer body 11, check valve 50 for preventing the reflux of contents when contents stored in content case 13 are inputted into cylinder tube 21 via content-inputting opening 21 a formed on cylinder tube 21 in response to the operation of collapsible link 25, and piston 23 for pumping contents inputted into cylinder tube 21 to discharge them to content brush 31 of content brush body 30; and content brush body 30 having content-inputting tube 32 where check valve 60 is installed, cam surface 33 for adjusting the stroke length of collapsible link 25, and content brush 31 positioned at its front-end, wherein check valve 60 prevents the reflux of contents when contents stored in cylinder tube 21 is inputted into content-inputting tube 32 in response to the operation of pump member 20.

Preferably, pump member 20 has content-inputting opening 21 a, check valve 50 for controlling the opening and closing of content-inputting opening 21 a, cylinder tube 21 with engaging circular rim 21 b which engages with end-fixed tube 70 inserted in the inner side of outer body 11 and positioned at the front-end of content case 13, piston 23 with content-delivering path 23 a which can be opened and closed by air tight packing 21 c installed in inner side of cylinder tube 21, content-delivering tube 29 for discharging contents passing through content-delivering path 23 a to content brush 31 of content brush body 30, which is installed at the front-end of piston 23 and has support rim 29 a for supporting one end of spring 27 formed at the circumference surface of back-end portion adjacent to the front-end of piston 23, and collapsible link 25 which is hinge-coupled to support rim 29 a formed on content-delivering tube 29 and extended toward the front-end of content-delivering tube 29, wherein a portion of the extended region is protruded through button-mounted groove 11 b of outer body 11 and connected to press button 40.

Preferably, collapsible link 25 has hinge block 25 a′ which is hinge-coupled to hinge axis 29 b formed at the back-end of content-delivering tube 29, first link bar 25 a with hinge block 25 a″ formed opposed to hinge block 25 a′, and U-shaped second link bar 25 b wherein the width between two straight portions corresponds to the diameter of content-delivering tube 29, rotating wheels 25 b″ are formed at both ends, and hinge axis 25 b′ also is formed at both ends of extended bar 25 c formed at the center of upper portion, wherein hinge block 25 a″ is connected to hinge axis 25 b′.

Preferably, check valves 50 and 60 have opening and closing balls 52 and 62 in the inner side of circular rims 51 and 61, wherein opening and closing balls 52 and 62 are formed with septa 54 and 64 with content-delivering openings 53 and 63.

As described above, the standard capacity discharge case of liquid contents according to the present invention has pump member 20 capable of dispensing contents by discharging and inputting repeatedly contents wherein the discharge is effected by a series of operations that press button 40 is pressed down, folded collapsible link 25 is deployed, piston 23 connected to one end of collapsible link 25 is retracted to compress cylinder tube, and contents contained in the tube is discharged to content brush 31, and the input is effected by a series of operations that external force applied to press button 40 is removed, piston 23 is advanced by the elasticity of spring 27 to close content-delivering path 23 a and open check valve 50, and contents stored in content case 13 is inputted into cylinder tube 21, thereby discharging a fixed quantity of contents through the stable operation of the pump member regardless of surrounding conditions and enhancing product reliability to ensure competitivity.

BRIEF DESCRIPTION OF THE INVENTION

FIG. 1 is an exploded cross-sectional view of a standard capacity discharge case of liquid contents according to the present invention.

FIG. 2 is an exploded perspective view of a standard capacity discharge case of liquid contents according to the present invention.

FIG. 3 is an exploded perspective view showing main members of a standard capacity discharge case of liquid contents according to the present invention.

FIG. 4 is a cross-sectional view showing main members of a standard capacity discharge case of liquid contents according to the present invention.

FIG. 5 is a view illustrating that contents are discharged by pressing a press button of a standard capacity discharge case of liquid contents according to the present invention.

FIG. 6 is a view illustrating that contents are re-charged into a cylinder tube by removing an external force applied to a press button of a standard capacity discharge case of liquid contents according to the present invention.

FIG. 7 is a view showing a content brush of a standard capacity discharge case of liquid contents according to the present invention.

FIG. 8 is a view showing another content brush of a standard capacity discharge case of liquid contents according to the present invention.

FIG. 9 is a view showing further content brush of a standard capacity discharge case of liquid contents according to the present invention.

<the descriptions of numerical references in the drawings> 10: case body 11: outer body 13: content case 20: pump member 21: cylinder tube 23: piston 25: collapsible link 25a: first link bar 25b: second link bar 27: spring 29: content-delivering tube 30: content brush body 31: content brush 32: content-inputting tube 40: press button 50, 60: check valve 70: end-fixed tube

DETAILED DESCRIPTION OF THE INVENTION

Hereinafter, preferred embodiments to achieve the aforementioned object will be described in detail with reference to the accompanying drawings. Terms and words used in the specification and claims should not be interpreted only as dictionary or common meanings. These terms and words should be interpreted as meanings to conform to technical concept of the present invention, on the basis of the principle that the inventors can properly define the meanings of terms to explain their invention better.

As shown in FIGS. 1 to 6, the standard capacity discharge case of liquid contents according to the present invention may be used for interior-contained products, foods, stationery, and medical products.

The standard capacity discharge case of liquid contents according to the present invention includes case body 10 having outer body 11 provided with an assembly and content case positioned in the inner side of outer body 11; pump member 20 for discharging contents through a pumping operation in response to the operation of press button 40, which is positioned at the front-end of outer body 11; and content brush body 30 which is positioned at the front-end of pump member 20 and connected to content case 13.

Case body 10 has content case 13 for storing contents, wherein outer body 11 is positioned in the outer side of content case 13. Content case 13 has an opened upper portion, and piston 13 a is installed inside content case 13 to push up contents stored therein. Also, content case 13 has air-inflowing opening 13 b for allowing the movement of piston 13 a.

Outer body 11 mounted on the outer side of content case 13 has stopping part 11 a formed inwardly at one end where content brush body 30 is under cut-mounted, button-mounted groove 11 b formed at a point adjacent to one end (hereinafter, it is referred to as ‘front-end’) where press button 40 is mounted, and assembly with air-inflowing opening 12 a which is under-cut mounted on the opposed end (hereinafter, it is referred to as ‘back-end’).

As described above, since assembly 12 is mounted on the back-end of outer body 11, content case 13 installed inside outer body 11 may be changed as necessary. In detail, if contents stored in content case 13 are completely discharged, assembly 12 is separated from the back-end of outer body 11 and content case 13 is removed from outer body 11. Then, new content case 13 with contents filled is inserted in outer body 11 and new content case 13 is connected to cylinder tube 21. Therefore, contents newly filled are supplied from content case 13 to cylinder tube 21.

As such, since assembly 12 is removably mounted on the back-end of outer body 11, existing content case 13 may be changed with new content case 13 with contents newly filled when contents stored in content case 13 is completely discharged. Therefore, the standard capacity discharge case of liquid contents according to the present invention may be conveniently used.

Pump member 20 is mounted inwardly on the front-end of outer body 11, wherein pump member 20 has cylinder tube 21, piston 23 which performs reciprocation in cylinder tube 21, content-delivering tube 29 for inputting contents from piston 23, and first and second link bars 25 a and 25 b for operating piston 23.

Cylinder tube 21 is connected to the front-end of content case 13 at its back-end where content-inputting opening 21 a comprising check valve 50 is formed, and has engaging circular rim 21 b which engages with end-fixed tube 70 inserted in the inner side of outer body 11 and positioned at the front-end of content case 13.

Piston 23 is installed in the inner side of cylinder tube 21, and the elasticity of spring 27 is applied to piston 23 while one end of spring 27 is supported by support rim 29 a of content-delivering tube 29 which is extended to piston 23.

Piston 23 has also content-delivering path 23 a which can be opened and closed selectively by air tight packing 21 c positioned in the inner side of cylinder tube 21, and content-delivering tube 29 for discharging contents passing through content-delivering path 23 a to content brush 31 of content brush body 30 is extended to the front-end of piston 23.

Content-delivering tube 29 has support rim 29 a for supporting one end of spring 27 formed at the circumference surface of back-end portion of content-delivering tube 29, and hinge axis 29 b is formed opposed to each end at the front-end portion adjacent to support rim 29 a, wherein hinge axis 29 b is hinge-coupled to hinge block 25 a′ of first link bar 25 a formed in collapsible link 25. Content-inputting tube 32 of content brush body 30 is also connected to the front-end of content-delivering tube 29.

Collapsible link 25 formed by coupling first link bar 25 a to second link bar 25 b enables piston 23 to perform reciprocation. First link bar 25 a has a central linking bar (not shown), and assumes approximately I-shaped form in viewed from a side portion and H-shaped form in viewed from a front portion. Hinge blocks 25 a′ and 25 a″ are also formed at each end of first link bar 25 a.

Hinge block 25 a′ is hinge-coupled to hinge axis 29 b of content-delivering tube 29, and hinge block 25 a″ is connected to hinge 25 b′ of second link bar 25 b. That is, second link bar 25 b connected to first link bar 25 a has two straight portions with the width corresponding to the diameter of content-delivering tube 29, and rotating wheels 25 b″ are formed at both ends. Hinge axis 25 b′ also is formed at both ends of extended bar 25 c extended from each rotating wheel 25 b″, wherein hinge block 25 a″ of first link bar 25 a is connected to hinge axis 25 b′. Therefore, second link bar 25 b assumes approximately U-shaped form.

As such, collapsible link 25 may be operated by pressing down the coupling portion of first link bar 25 a and second link bar 25 b using press button 40 installed in button-mounted groove 11 b of outer body 11.

Content brush body 30 has content-inputting tube 32 provided with check valve 60, wherein its back-end is under cut-mounted on the front-end of outer body 11, and check valve 60 is connected to content-delivering tube 29 to input contents and is opened and closed in response to a pumping operation. Content brush body 30 also has cam surface 33 formed on a portion facing with content-inputting tube 32, thereby adjusting the stroke length of collapsible link 25 in response to the rotation of content brush body 30.

Content brush 31 is installed in the front-end of content-inputting tube 32 such that contents inputted into content-inputting tube 32 can be discharged to content brush 31.

In addition, content brush 31 may have brush-like shape where a number of hairs come together, as shown in FIGS. 1, 2, and 4 to 6. Also, content brush 31 may be formed as rod-like shape where its tip has a semi-spherical form or an inclined form, as shown in FIGS. 7 and 9. Moreover, content brush 31 may have removable structure, which may be changed with other content brushes.

Check valves 50 and 60, which are installed in each of cylinder tube 21 and content brush body 30, have opening and closing balls 52 and 62 formed in the inner side of circular rims 51 and 61. These opening and closing balls 52 and 62 are formed with septa 54 and 64 with content-delivering openings 53 and 63.

Content brush 31 of content brush body 30 is protected by protective cover 80. Protective cover 80 may also be removed from content brush body 30.

To operate the standard capacity discharge case of liquid contents according to the present invention as described above, as shown in FIG. 4, protective cover 80 mounted on content brush body 30 is separated from content brush body 30, and then press button 40 installed in button-mounted groove 11 b of outer body 11 is pressed down to operate pump member 20, to thereby discharge contents stored in content case 13 of case body 10 and use them.

That is, when press button 40 is pressed down as shown in FIG. 5, hinge block 25 a″ and hinge 25 b′ which is the coupling portion of first link bar 25 a and second link bar 25 b forming collapsible link 25 is hinge-rotated to deploy first link bar 25 a and second link bar 25 b.

As such, when first link bar 25 a and second link bar 25 b are deployed, rotating wheels 25 b″ of second link bar 25 b are supported against cam surface 33 which forms the back-end of content brush body 30, and force to move first link bar 25 a is generated.

Also, since rotating wheels 25 b″ is supported against cam surface 33, the stroke length of collapsible link 25 may be adjusted, and hence the stroke length of pump member 20 may be adjusted to control pumping force requested for discharging contents.

When force to move first link bar 25 a against which rotating wheels 25 b″ are supported is generated, content-delivering tube 29 which is hinge-coupled to hinge block 25 a′ of first link bar 25 a is moved toward its back-end, and simultaneously piston 23 connected to content-delivering tube 29 is moved toward its back-end.

As such, by moving piston 23 toward its back-end by content-delivering tube 29, contents inputted into cylinder tube 21 are supplied to content brush 31 through content-delivering path 23 a of piston 23.

In detail, when content-delivering tube 29 and piston 23 are retracted together, content-inputting opening 21 a is closed by check valve 50 installed in cylinder tube 21, and simultaneously piston 23 is dislocated from air tight packing 21 c to open content-delivering path 23 a, to thereby deliver contents through content-delivering path 23 a.

In this case, content-inputting tube 32 of content brush body 30 is opened since check valve 60 is pushed by the discharging pressure of contents delivered through content-delivering path 23 a, and contents inputted through content-inputting tube 32 may be discharged to content brush 31.

To the contrary, as shown in FIG. 6, when external force is removed from press button 40 compressed, piston 23 is moved toward its front-end, and contents stored in content case 13 are inputted into cylinder tube 21 through content-inputting opening 21 a.

That is, when external force applied to press button 40 is removed, piston 23 is moved toward its front-end by the elasticity of spring 27 of which one end is supported by support rim 29 a of content-delivering tube 29, and vacuum force within cylinder tube 21 is generated. Check valve 50 which closes content-inputting opening 21 a is spaced by the vacuum force, and contents stored in content case 13 are inputted into cylinder tube 21. Piston 13 a installed in content case 13 is moved toward its front-end by an amount inputted into cylinder tube 21 from content case 13.

The vacuum force within cylinder tube 21 may be generated when content-inputting tube 32 is closed by check valve 60, which is installed in content-inputting tube 32 of cylinder tube 21 to open and close content-inputting tube 32 selectively and repeatedly.

As described above, after discharging contents to content brush 31 by operating press button 40 and using the discharged contents, protective cover may be mounted on content brush body 30 to protect content brush 31 from a contamination by foreign substances.

While the present invention has been described with respect to certain preferred embodiments, it will be apparent to those skilled in the art that various changes and modifications may be made without departing from the scope of the invention as defined in the following claims, and that these changes and modifications fall within the scope of the invention. 

1. A standard capacity discharge case of liquid contents, which is capable of discharging contents stored in a case body to a content brush by a pressing down operation of a press button, characterized by including case body 10 having outer body 11 where assembly 12 is installed at its back-end and contents is stored therein and content case 13 where piston 13 a is installed, wherein the piston 13 a is moved as the contents are reduced; pump member 20 having collapsible link 25 operable by press button 40 installed in button-mounted groove 11 b of outer body 11, check valve 50 for preventing the reflux of contents when contents stored in content case 13 are inputted into cylinder tube 21 via content-inputting opening 21 a formed on cylinder tube 21 in response to the operation of collapsible link 25, and piston 23 for pumping contents inputted into cylinder tube 21 to discharge them to content brush 31 of content brush body 30; and content brush body 30 having content-inputting tube 32 where check valve 60 is installed, cam surface 33 for adjusting the stroke length of collapsible link 25, and content brush 31 positioned at its front-end, wherein check valve 60 prevents the reflux of contents when contents stored in cylinder tube 21 is inputted into content-inputting tube 32 in response to the operation of pump member
 20. 2. A standard capacity discharge case of liquid contents according to claim 1, wherein pump member 20 has content-inputting opening 21 a, check valve 50 for controlling the opening and closing of content-inputting opening 21 a, cylinder tube 21 with engaging circular rim 21 b which engages with end-fixed tube 70 inserted in the inner side of outer body 11 and positioned at the front-end of content case 13, piston 23 with content-delivering path 23 a which can be opened and closed by air tight packing 21 c installed in inner side of cylinder tube 21, content-delivering tube 29 for discharging contents passing through content-delivering path 23 a to content brush 31 of content brush body 30, which is installed at the front-end of piston 23 and has support rim 29 a for supporting one end of spring 27 formed at the circumference surface of back-end portion adjacent to the front-end of piston 23, and collapsible link 25 which is hinge-coupled to support rim 29 a formed on content-delivering tube 29 and extended toward the front-end of content-delivering tube 29, wherein a portion of the extended region is protruded through button-mounted groove 11 b of outer body 11 and connected to press button
 40. 3. A standard capacity discharge case of liquid contents according to claim 2, wherein collapsible link 25 has hinge block 25 a′ which is hinge-coupled to hinge axis 29 b formed at the back-end of content-delivering tube 29, first link bar 25 a with hinge block 25 a″ formed opposed to hinge block 25 a′, and U-shaped second link bar 25 b wherein the width between two straight portions corresponds to the diameter of content-delivering tube 29, rotating wheels 25 b″ are formed at both ends, and hinge axis 25 b′ also is formed at both ends of extended bar 25 c formed at the center of upper portion, wherein hinge block 25 a″ is connected to hinge axis 25 b′.
 4. A standard capacity discharge case of liquid contents according to claim 1, wherein check valve 50,60 has opening and closing ball 52,62 in the inner side of circular rim 51,61 and wherein opening and closing ball 52,62 is formed with septum 54,64 with content-delivering opening 53,63. 